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Hello. Spatial Analysis of Elephant Poaching Incidents to Identity High Risk Poaching Areas to Assist in the Deployment of Drones and Wildlife Rangers. Michael Shaffer GEOG 596A Summer 2014 Advisor – Joseph bishop. The Problem. Illegal w ildlife trade is valued at $10 billion dollars

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  1. Hello

  2. Spatial Analysis of Elephant Poaching Incidents to Identity High Risk Poaching Areas to Assist in the Deployment of Drones and Wildlife Rangers Michael Shaffer GEOG 596A Summer 2014 Advisor – Joseph bishop

  3. The Problem • Illegal wildlife trade is valued at $10 billion dollars • Fifth most profitable illicit trade in the world • $2,000 per pound of ivory • High rates of poverty and low standard of living • Elephant slaughter is unsustainable • African elephant population decreased 62% between 2002 and 2011 • Experts fear possible extinction by 2025 if the rate of one elephant every 15 minutes continues • Difficult to stop • Protected areas are vast and elephants travel large distances • Poachers are well armed and dangerous

  4. The Solution • Analyze and predict poaching patterns • Focus patrols on areas of high threat value • Outdated patrols that either cover entire conservation area or stay within close proximity to guard posts. • Reassess guard posts based on high risk areas and response times • Increase aerial surveillance through the use of UAV (Drones) • Significantly reduced operational costs • Eliminate human flight risk in dangerous areas

  5. Project • Goal: Support anti-poaching elephant conservation by identifying high risk poaching areas, calculating drone flight paths to model achievable surveillance areas, and locate wildlife ranger guard stations based on the location of high risk areas. • Objectives: • 1. Perform point pattern analysis on elephant poaching data • 2. Identify high risk poaching areas through geospatial analysis of environment • 3. Model surveillance drone flight paths to optimize coverage for high risk areas • 4. Locate guard stations based on terrain and proximity to high risk areas

  6. Study Site – Tsavo East National Park

  7. Point Pattern Analysis • First Order Effects • Is point distribution connected to underlying function of physical environment? • Revealed through density based measurements • Large bandwidth kernel density estimate

  8. Point Pattern Analysis • Second Order Effects • Do individual points influence the placement of additional points? G Function

  9. Point Pattern Analysis • Deterministic or Stochastic Process • Monte Carlo Procedure and IRP/CSR (Independent Random Process/Complete Spatial Randomness) G Function

  10. Point Pattern Analysis Moran’s I LISA Cluster Map • Spatial Autocorrelation – Local Indicators of Spatial Autocorrelation (LISA)

  11. Risk Analysis • Identify risk based on physical environment • Determine correlation between physical features and poaching incidents • Land cover type • Distance proximity to water sources • Distance proximity to roads • Identify risk from existing poaching intensity

  12. Risk Analysis - Land Cover • 12 Different Land Cover Types • Elephants have seasonal preferences • Open low shrubs (61%) • Trees and shrubs savannah (22%)

  13. Risk Analysis – Proximity to Water • Water system • Galana River - Perennial • Tiva River - Seasonal • Elephants stay close to water • 0 – 2,000 m (30%) • 2,000 – 4,000 m (31%) • 4,000 – 6,000 m (11%) • More incidents in Galana area

  14. Risk Analysis – Proximity to Roads • Elephants show no avoidance behavior • Poachers need for quick escape • 0 – 2,000 m (33%) • 2,000 – 4,000 m (21%) • 4,000 – 6,000 m (17%) • 6,000 – 8,000 m (13%)

  15. Risk Analysis – Incident Intensity • Incident hot spot mapping • Small bandwidth KDE • Reveal repeat areas

  16. Risk Analysis – Total Risk • Cumulative Risk • Highlights regions for focused patrols • Reduce costs • Move poachers to lower risk areas

  17. Drone Flight Characteristics • AeroHawk Drone Key Factors • Cruising altitude: 300 feet • Cruising speed: 37 mph • Flight time at cruise speed: 90 minutes • Total Distance: 55 miles • FLIR Tau 2 640 WFOV Camera • IR imaging: Night heat signatures • Horizontal field of view: 613 feet

  18. Drone Flights – Surveillance Area • Created method for determining flight path • Individual way points for autopilot • No gaps in coverage • Number of required flights • Total time to monitor high risk area

  19. Drone Flights – Surveillance Area • Grid system - Each cell width is equal to horizontal field of view • Point at center of each cell acts as way point

  20. Drone Flights – Surveillance Area • 3 Flights to cover 28 square kilometers • 3 hours & 35 minutes

  21. Guard Station Locations • Position guard locations near high risk areas • Determine response time based on cost surface • Time cost based on speed of travel over various terrain • Response time of 23 minutes to high risk areas

  22. Timeline • Take GEOG 596B during the Fall 2 Quarter • Expanded analysis for complete data set • August • Find possible journal for publication • September • Conservation Biology • PlosOne Journal • Tropical Conservation Science • Refine paper to meet journal standards • October through November • Submit article • December

  23. Acknowledgements • MGIS peers and professors • Justine Blanford • Joseph Bishop and the “Why” question • Elephant conservation groups and rangers • David Sheldrick Wildlife Trust • Friends and family • John Wilkinson • Questions?

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